Inductive aiming trigger

What is claimed is: 1. A handheld code reader, comprising: a main structure; electro-optics positioned at the main structure, and configured to image or scan machine-readable codes; a handle extending from the main structure, and configured to enable a user to grip the handle to operate the code reader; electronics configured to cause the electro-optics to perform (i) a pre-trigger aiming function and (ii) a code reading function; a trigger configured to be pulled toward the handle by the user; an antenna in electrical communication with the electronics, and configured to sense an inductive change caused by the user pulling the trigger from a resting position toward a pre-trigger aiming function position; and a switch in electrical communication with the electronics, and positioned to be activated by the trigger being pulled to a scan position such that the trigger reaches the pre-trigger aiming function position before the scan position when starting from the resting position to initiate the pre-trigger aiming function before the code reading function. 2. The code reader according to claim 1 , wherein the switch includes a metallic dome portion. 3. The code reader according to claim 2 , wherein the antenna is configured to sense an inductive change when the metallic dome is deformed by the trigger. 4. The code reader according to claim 1 , wherein the electronics are further configured to enable a user to set a pre-trigger aiming threshold level, which when crossed by the inductive change, causes the electronics to initiate the pre-trigger aiming function. 5. The code reader according to claim 1 , further comprising a conductive element positioned on the trigger, and wherein the antenna is configured to sense a change in location of the conductive element. 6. The code reader according to claim 1 , wherein the electronics are configured to determine a resting-state inductive value when the trigger is in a resting position, and to store the resting-state inductive value as a reference value. 7. The code reader according to claim 6 , wherein the electronics are further configured to: sense an instant inductive value; determine a difference inductive value between the instant inductive value and the resting-state inductive value; and in response to determining that the difference inductive value is above a pre-trigger threshold level, initiate the pre-trigger aiming function. 8. A method of operating a code reader, comprising: sensing an inductive change during operation of a trigger of the code reader; and in response to determining that the inductive change crosses a pre-trigger inductive threshold level, performing a pre-trigger aiming function before initiating a code reading function depending on a position of the trigger during operation of the trigger. 9. The method according to claim 8 , wherein sensing an inductive change includes sensing an inductive change in response to an inductive device moving through an electromagnetic field. 10. The method according to claim 8 , wherein sensing an inductive change includes sensing and inductive change in response to a metallic dome of a dome switch being deformed by a trigger of the code reader. 11. The method according to claim 8 , further comprising self-calibrating the code reader by: sensing a resting-state inductive value; and storing the resting-state inductive value. 12. The method according to claim 11 , wherein sensing the inductive change includes: sensing an instant inductive value; determining a difference inductive value between the instant inductive value and the resting-state inductive value; and in response to the difference inductive value crossing the pre-trigger inductive threshold level, performing the pre-trigger aiming function. 13. The method according to claim 11 , further comprising enabling a user to set the pre-trigger aiming threshold level. 14. A handheld code reader, comprising: a main structure; a handle extending from the main structure; a trigger configured to be pulled by a finger of a user holding the handle; a conductive element; an antenna configured to sense an inductive change caused by the trigger moving the conductive element; and electronics in electrical communication with the antenna, and configured to determine when the inductive change is indicative of a user selecting to activate a pre-trigger aiming function before activating a code reading function based on a position of the trigger being pulled. 15. The code reader according to claim 14 , wherein the electronics are configured to determine when the inductive change is indicative of the user selecting to activate a pre-trigger aiming function includes sensing when a difference between a resting-state inductive value and an instant inductive value crosses a pre-trigger inductive threshold level. 16. The code reader according to claim 14 , wherein the antenna is a circular antenna positioned at the handle. 17. The code reader according to claim 14 , wherein the electronics are further configured to enable a user to set a pre-trigger aiming threshold level, which when crossed by the inductive change, causes the electronics to initiate the pre-trigger aiming function. 18. The code reader according to claim 14 , wherein the conductive element is positioned on the trigger. 19. The code reader according to claim 14 , further comprising a switch positioned to be pressed by the trigger, and wherein the conductive element is a metal dome on the switch, and wherein the antenna encircles the switch and is configured to sense the inductive change in response to the metal dome being deformed by the trigger. 20. The code reader according to claim 14 , wherein the electronics, in response to determining when the inductive change crosses a pre-trigger inductive threshold level, causes a pre-trigger aiming illumination pattern to be projected from the code reader.